Human intervention on ecosystems has created a disturbed environmental scenario where ecosystem services are negatively impacted. Deforestation, one of the most pervasive anthropogenic actions, has severely reduced natural populations of tree native species in biomes like the Atlantic Forest in Brazil. Several actions to contain and mitigate these negative impacts lead to a scenario in which forest restoration plays an essential role. However, the effectiveness of restoration in recomposing a functional ecosystem and self-sustainable tree populations is not fully addressed. A key point is that species must contain genetic fitness and a diversity of alleles to allow population’s survival, reproduction, recruitment, and adaptation over time. Thus, there is an urgent requirement to comprehend most reliable restoration efforts to effectively reinstate genetically viable populations.

Therefore, my project is focused on comprehending how restored forests can effectively contribute to the re-establishment of genetically-viable populations of a vulnerable Atlantic Forest tree species, the Brazilian Rosewood. I will sample conserved Atlantic Forest sites and restored forests to conduct genetic analysis on Brazilian Rosewood populations. Overall, the idea is to comprehend how genetic parameters are related to different forest restoration methodologies and to forest remnants surrounding these restored forests, in Southern Bahia, Brazil.

Mainly, the results will be used to define ideal genetic parameters to a restored ecosystem, assist in the detection of key regions to reestablish forest connectivity and for seed collection. Through this project outputs, I expect to bring constructive insights to conservation efforts, relating it to practical issues and methods of restoration.

Overall, the findings will be useful not only to reach Brazilian purposes of restoring forests but to achieve the most valuable outcome: a restored ecosystem.